EC Number |
Application |
Reference |
---|
3.5.1.4 | biotechnology |
the enzyme is useful in biocatalytic nitrile hydrolysis in a system together with nitrile hydratase, EC 4.2.1.84 |
-, 664412 |
3.5.1.4 | drug development |
the enzyme may be another attractive drug target |
733491 |
3.5.1.4 | environmental protection |
convenient treatment of acetonitrile-containing wastes using the tandem combination of nitrile hydratase (Rhodococcus pyridinivorans S85-2) and amidase-producing microorganisms (Brevundimonas diminuta AM10-C-1) |
-, 663744 |
3.5.1.4 | industry |
the immobilized, cross-linked enzyme aggregate proves useful as a substitute for soluble amidase as a biocatalyst in the pharmaceutical and chemical industries |
712726 |
3.5.1.4 | medicine |
down-regulated state of FAAH - through its effects on CB1 and opioid receptor in the brain reward circuitry - promotes ethanol drinking behavior. Manipulation of the FAAH activity might represent a novel therapeutic target for the treatment of ethanol dependence |
688513 |
3.5.1.4 | medicine |
FAAH inhibition shows potential utility for the clinical treatment of persistent and neuropathic pain |
685574 |
3.5.1.4 | medicine |
therapy |
-, 209116 |
3.5.1.4 | pharmacology |
nonsteroid anti-inflammatory drugs known as profens, chiral drug |
-, 209116 |
3.5.1.4 | synthesis |
- |
-, 209106, 209109, 209132 |
3.5.1.4 | synthesis |
acrylamide production |
-, 209105, 209113 |